freebsd-dev/contrib/libstdc++/scripts/make_graph.py

577 lines
19 KiB
Python
Executable File

#!/usr/bin/python
import string
import sys
import re
import os
import platform
import commands
from Numeric import *
from pychart import *
from xml.dom import minidom
class exception:
pass
def comp_platform_info(compiler):
ret = '<ul>\n'
so = commands.getstatusoutput('cat /proc/cpuinfo | grep \'cpu MHz\'')
if so[0] == 0:
ret += '<li>CPU speed - %s</li>\n' % so[1]
so = commands.getstatusoutput('cat /proc/meminfo | grep \'MemTotal\'')
if so[0] == 0:
ret += '<li>Memory - %s</li>\n' % so[1]
ret += '<li>Platform - %s</li>\n' % platform.platform()
so = commands.getstatusoutput(compiler + ' --version')
if so[0] == 0:
ret += '<li>Compiler - %s</li>\n' % so[1]
ret += '</ul>\n'
return ret
class res:
"""
A 'structure' representing the results of a test.
"""
def __init__(self, x_label, y_label, cntnr_list, cntnr_descs, res_sets):
self.x_label = x_label
self.y_label = y_label
self.cntnr_list = cntnr_list
self.cntnr_descs = cntnr_descs
self.res_sets = res_sets
class res_getter:
"""
This class returns a res object for some test.
"""
class __sorter:
def __accum(self, results):
total = 0
for result in results:
total = total + result[1]
return total
def sort(self, cntnr_list, res_sets):
cntnrs_and_totals = []
for cntnr in cntnr_list:
results = res_sets[cntnr]
total = self.__accum(results)
cntnrs_and_totals.append((cntnr, total))
by_total = lambda x,y: x[1] > y[1] and -1 or 1
cntnrs_and_totals.sort(by_total)
ret = []
for cntnr_and_total in cntnrs_and_totals:
cntnr = cntnr_and_total[0]
ret.append(cntnr)
return ret
def __init__(self, test_infos_f_name):
self.__test_to_container_res_sets = {}
self.__test_to_f_names = {}
tests_dat = minidom.parse(test_infos_f_name)
for test in tests_dat.getElementsByTagName('test'):
test_name = test.attributes['name'].value
self.__test_to_f_names[test_name] = test.getElementsByTagName('file')[0].attributes['name'].value
cntnr_list = []
for cntnr in test.getElementsByTagName('cntnr'):
cntnr_list.append(cntnr.attributes['name'].value)
self.__test_to_container_res_sets[test_name] = cntnr_list
def __get_label(self, tst_dat, label_name):
label = tst_dat.getElementsByTagName(label_name)[0].firstChild.data
label = string.strip(label, '\n')
label = string.strip(label)
return label
def __parse_res_sets(self, f_name, cntnr_list):
tst_dat = minidom.parse(f_name)
x_label = self.__get_label(tst_dat, 'x_name')
y_label = self.__get_label(tst_dat, 'y_name')
parsed_container_list = tst_dat.getElementsByTagName('cntnr')
res_sets = {}
cntnr_descs = {}
for cntnr in parsed_container_list:
cntnr_name = cntnr.attributes["name"].value
res_sets[cntnr_name] = []
for cntnr in parsed_container_list:
cntnr_name = cntnr.attributes["name"].value
cntnr_desc = cntnr.getElementsByTagName('desc')
if res_sets.has_key(cntnr_name):
res_set = []
result_list = cntnr.getElementsByTagName('result')
for result in result_list:
x = string.atol(result.attributes["x"].value)
y = string.atof(result.attributes["y"].value)
res_set.append((x, y))
res_sets[cntnr_name] = res_set
cntnr_descs[cntnr_name] = cntnr_desc[0]
return (x_label, y_label, cntnr_descs, res_sets)
def get(self, res_dir, test_name):
cntnr_list = self.__test_to_container_res_sets[test_name]
f_name = res_dir + '/' + self.__test_to_f_names[test_name]
parsed = self.__parse_res_sets(f_name, cntnr_list)
x_label = parsed[0]
y_label = parsed[1]
cntnr_descs = parsed[2]
res_sets = parsed[3]
cntnr_list = self.__sorter().sort(cntnr_list, res_sets)
return res(x_label, y_label, cntnr_list, cntnr_descs, res_sets)
class png_maker:
"""
This class creates a png file from a result set.
"""
class __style_chooser:
def __init__(self):
self.native_re = re.compile(r'n_(?:.*?)')
self.native_tick_mark_0 = tick_mark.Circle(size = 4)
self.native_tick_mark_1 = tick_mark.Square(size = 4)
self.native_line_style_0 = line_style.T(color = color.black, width=2)
self.native_line_style_1 = line_style.T(color = color.black, width=2)
self.mask_re = re.compile(r'mask(?:.*?)')
self.mod_re = re.compile(r'mod(?:.*?)')
self.rb_tree_mmap_rb_tree_set_re = re.compile(r'rb_tree_mmap_rb_tree_set(?:.*?)')
self.rb_tree_mmap_lu_mtf_set_re = re.compile(r'rb_tree_mmap_lu_mtf_set(?:.*?)')
self.splay_re = re.compile(r'splay(?:.*?)')
self.rb_tree_re = re.compile(r'rb_tree(?:.*?)')
self.ov_tree_re = re.compile(r'ov_tree(?:.*?)')
self.splay_tree_re = re.compile(r'splay_tree(?:.*?)')
self.pat_trie_re = re.compile(r'pat_trie(?:.*?)')
self.lc_1div8_1div2_re = re.compile(r'lc_1div8_1div2(?:.*?)')
self.lc_1div8_1div1_re = re.compile(r'lc_1div8_1div1(?:.*?)')
self.mcolc_1div2_re = re.compile(r'mcolc_1div2(?:.*?)')
def choose(self, cntnr):
if self.native_re.search(cntnr):
if cntnr == 'n_pq_vector':
return (self.native_tick_mark_1, self.native_line_style_1)
return (self.native_tick_mark_0, self.native_line_style_0)
# tick_mark predefined
# square, circle3, dia, tri, dtri, star, plus5, x5, gray70dia, blackdtri, blackdia
if self.mask_re.search(cntnr):
clr = color.navy
elif self.mod_re.search(cntnr):
clr = color.green4
elif self.rb_tree_mmap_rb_tree_set_re.search(cntnr):
clr = color.mediumblue
tm = tick_mark.square
elif self.rb_tree_mmap_lu_mtf_set_re.search(cntnr) or cntnr == 'rc_binomial_heap':
clr = color.gray50
tm = tick_mark.dia
elif self.splay_tree_re.search(cntnr) or cntnr == 'binomial_heap':
clr = color.gray58
tm = tick_mark.tri
elif self.rb_tree_re.search(cntnr) or cntnr == 'binary_heap':
clr = color.red3
tm = tick_mark.dtri
elif self.ov_tree_re.search(cntnr) or cntnr == 'thin_heap':
clr = color.orangered1
tm = tick_mark.star
elif self.pat_trie_re.search(cntnr) or cntnr == 'pairing_heap':
clr = color.blueviolet
tm = tick_mark.plus5
else:
sys.stderr.write(cntnr + '\n')
raise exception
# mask / mod
if cntnr.find('lc_1div8_1div') <> -1:
if cntnr.find('mask') <> -1:
# mask
if self.lc_1div8_1div2_re.search(cntnr):
if cntnr.find('nsth') <> -1:
tm = tick_mark.x5
else:
tm = tick_mark.gray70dia
if self.lc_1div8_1div1_re.search(cntnr):
if cntnr.find('nsth') <> -1:
tm = tick_mark.dia
else:
tm = tick_mark.circle3
else:
# mod
if self.lc_1div8_1div2_re.search(cntnr):
if cntnr.find('nsth') <> -1:
tm = tick_mark.tri
else:
tm = tick_mark.square
if self.lc_1div8_1div1_re.search(cntnr):
if cntnr.find('nsth') <> -1:
tm = tick_mark.dtri
else:
tm = tick_mark.star
if self.mcolc_1div2_re.search(cntnr):
tm = tick_mark.circle3
return (tm, line_style.T(color = clr, width = 2))
def __init__(self):
self.__sc = self.__style_chooser()
self.__mmap_re = re.compile('mmap_')
def __container_label_name(self, cntnr):
return self.__mmap_re.sub('\nmmap_\n', cntnr)
def make(self, res, of_name):
theme.output_format = 'png'
theme.output_file = of_name
theme.scale_factor = 2
# theme.default_font_size = 5
theme.use_color = 1
theme.reinitialize()
y_tick_interval = self.__get_y_tics(res)
xaxis = axis.X(format = '/a90/hL%d',
tic_interval = 200,
label = res.x_label)
yaxis = axis.Y(format = '%.2e',
tic_interval = y_tick_interval,
label = res.y_label)
legend_lines = len(res.cntnr_list)
legend_vloc = 50 + (legend_lines * 10)
ar = area.T(x_axis = xaxis, y_axis = yaxis,
legend = legend.T(loc=(0,-legend_vloc),
frame_line_style=None,
inter_row_sep=2),
size=(240,110))
plot_list = []
for cntnr in res.cntnr_list:
style = self.__sc.choose(cntnr)
print cntnr
pl = line_plot.T(label = self.__container_label_name(cntnr),
data = res.res_sets[cntnr],
tick_mark = style[0],
line_style = style[1])
plot_list.append(pl)
for plot in plot_list:
ar.add_plot(plot)
ar.draw()
def __get_y_tics(self, res):
mx = 0
for cntnr in res.cntnr_list:
m = max(d[1] for d in res.res_sets[cntnr])
mx = max(m, mx)
return mx / 5
def make_tt(s):
return '<tt>' + s + '</tt>'
def make_b(s):
return '<b>' + s + '</b>'
def make_ttb(s):
return '<tt><b>' + s + '</b></tt>'
def make_i(s):
return '<i>' + s + '</i>'
def make_pb_ds_class_href(c_name):
return '<a href = "' + c_name + '.html">' + make_tt(c_name) + '</a>\n'
def build_value_to_pb_ds_class_href(s_desc):
value = s_desc.attributes['value'].value
ret = make_pb_ds_class_href(value)
return ret
class hash_desc_to_html_builder:
def build_specific_comb_hash_fn(self, s_desc):
comb_hash_fn_desc = s_desc.getElementsByTagName('Comb_Hash_Fn')[0]
ret = make_tt('Comb_Hash_Fn')
ret = ret + ' = '
ret = ret + build_value_to_pb_ds_class_href(comb_hash_fn_desc)
return ret
def __build_nom_denom(self, s_desc):
nom_denom = s_desc.attributes['nom'].value + '/' + s_desc.attributes['denom'].value
return make_i(nom_denom)
def __build_lc_trigger_desc(self, s_desc):
ret = build_value_to_pb_ds_class_href(s_desc)
ret = ret + ' with ' + make_i('&alpha;<sub>min</sub>')
ret = ret + ' = ' + self.__build_nom_denom(s_desc.getElementsByTagName('alpha_min')[0])
ret = ret + ' and ' + make_i('&alpha;<sub>max</sub>')
ret = ret + ' = ' + self.__build_nom_denom(s_desc.getElementsByTagName('alpha_max')[0])
return ret
def build_specific_resize_policy(self, s_desc):
ret = make_tt('Resize_Policy')
ret = ret + ' = '
resize_policy_desc = s_desc.getElementsByTagName('Resize_Policy')[0]
ret = ret + build_value_to_pb_ds_class_href(resize_policy_desc)
ret = ret + ' with ' + make_tt('Size_Policy')
ret = ret + ' = '
size_policy_desc = resize_policy_desc.getElementsByTagName('Size_Policy')[0]
ret = ret + build_value_to_pb_ds_class_href(size_policy_desc)
ret = ret + ', and ' + make_tt('Trigger_Policy')
ret = ret + ' = '
trigger_policy_desc = resize_policy_desc.getElementsByTagName('Trigger_Policy')[0]
if trigger_policy_desc.attributes['value'].value == 'hash_load_check_resize_trigger':
ret = ret + self.__build_lc_trigger_desc(trigger_policy_desc)
else:
raise exception
return ret
class cc_hash_desc_to_html_builder:
def __init__(self):
self.__hash_builder = hash_desc_to_html_builder()
def build(self, s_desc):
ret = build_value_to_pb_ds_class_href(s_desc)
ret = ret + 'with ' + self.__hash_builder.build_specific_comb_hash_fn(s_desc)
ret = ret + ', and ' + self.__hash_builder.build_specific_resize_policy(s_desc)
return ret
class gp_hash_desc_to_html_builder:
def __init__(self):
self.__hash_builder = hash_desc_to_html_builder()
def build(self, s_desc):
ret = build_value_to_pb_ds_class_href(s_desc)
ret = ret + ' with ' + self.__hash_builder.build_specific_comb_hash_fn(s_desc)
ret = ret + ', ' + self.__hash_builder.build_specific_resize_policy(s_desc)
ret = ret + ', and ' + make_tt('Probe_Fn')
ret = ret + ' = '
probe_fn = s_desc.getElementsByTagName('Probe_Fn')[0].attributes['value'].value
ret = ret + make_pb_ds_class_href(probe_fn)
return ret
class basic_tree_like_desc_to_html_builder:
def build_tag(self, s_desc):
ret = make_tt('Tag')
ret = ret + ' = '
tag_desc = s_desc.getElementsByTagName('Tag')[0]
ret = ret + build_value_to_pb_ds_class_href(tag_desc)
return ret
def build_node_update(self, s_desc):
ret = make_tt('Node_Update')
ret = ret + ' = '
node_update_desc = s_desc.getElementsByTagName('Node_Update')[0]
ret = ret + build_value_to_pb_ds_class_href(node_update_desc)
return ret
class basic_tree_desc_to_html_builder:
def __init__(self):
self.__tree_like_builder = basic_tree_like_desc_to_html_builder()
def build(self, s_desc):
ret = build_value_to_pb_ds_class_href(s_desc)
ret = ret + ' with ' + self.__tree_like_builder.build_tag(s_desc)
ret = ret + ', and ' + self.__tree_like_builder.build_node_update(s_desc)
return ret
class basic_trie_desc_to_html_builder:
def __init__(self):
self.__tree_like_builder = basic_tree_like_desc_to_html_builder()
def build(self, s_desc):
ret = build_value_to_pb_ds_class_href(s_desc)
ret = ret + ' with ' + self.__tree_like_builder.build_tag(s_desc)
ret = ret + ', and ' + self.__tree_like_builder.build_node_update(s_desc)
return ret
class lu_desc_to_html_builder:
def build(self, s_desc):
ret = build_value_to_pb_ds_class_href(s_desc)
ret = ret + ' with ' + make_tt('Update_Policy')
ret = ret + ' = '
update_policy_desc = s_desc.getElementsByTagName('Update_Policy')[0]
ret = ret + build_value_to_pb_ds_class_href(update_policy_desc)
return ret
class std_desc_to_html_builder:
def build(self, s_desc):
value = s_desc.attributes['value'].value
return make_tt(value.replace('std_', 'std::'))
class std_tr1_desc_to_html_builder:
def build(self, s_desc):
value = s_desc.attributes['value'].value
ret = make_tt(value.replace('std_tr1_', 'std::tr1::'))
ret = ret + ' with ' + make_tt('cache_hash_code')
ret = ret + ' = '
cache_hash_code = s_desc.getElementsByTagName('cache_hash_code')[0].attributes['value'].value
ret = ret + make_ttb(cache_hash_code)
return ret
class gnucxx_desc_to_html_builder:
def build(self, s_desc):
value = s_desc.attributes['value'].value
return make_tt(value.replace('__gnucxx_', '__gnucxx::'))
class stdext_desc_to_html_builder:
def build(self, s_desc):
value = s_desc.attributes['value'].value
return make_tt(value.replace('stdext_', 'stdext::'))
class npq_desc_to_html_builder:
def build(self, vector):
if vector:
under = make_tt('std::vector')
else:
under = make_tt('std::deque')
return make_tt('std::priority_queue') + ' adapting ' + under
class binary_heap_desc_to_html_builder:
def build(self, s_desc):
ret = make_pb_ds_class_href('priority_queue')
ret = ret + ' with ' + make_tt('Tag')
ret = ret + ' = ' + make_pb_ds_class_href('binary_heap_tag')
return ret
class thin_heap_desc_to_html_builder:
def build(self, s_desc):
ret = make_pb_ds_class_href('priority_queue')
ret = ret + ' with ' + make_tt('Tag')
ret = ret + ' = ' + make_pb_ds_class_href('thin_heap_tag')
return ret
class binomial_heap_desc_to_html_builder:
def build(self, s_desc):
ret = make_pb_ds_class_href('priority_queue')
ret = ret + ' with ' + make_tt('Tag')
ret = ret + ' = ' + make_pb_ds_class_href('binomial_heap_tag')
return ret
class rc_binomial_heap_desc_to_html_builder:
def build(self, s_desc):
ret = make_pb_ds_class_href('priority_queue')
ret = ret + ' with ' + make_tt('Tag')
ret = ret + ' = ' + make_pb_ds_class_href('rc_binomial_heap_tag')
return ret
class pairing_heap_desc_to_html_builder:
def build(self, s_desc):
ret = make_pb_ds_class_href('priority_queue')
ret = ret + ' with ' + make_tt('Tag')
ret = ret + ' = ' + make_pb_ds_class_href('pairing_heap_tag')
return ret
class legend_desc_builder:
"""
Returns a string corresponding to a specific container type.
"""
def __init__(self):
self.__cc_hash_builder = cc_hash_desc_to_html_builder()
self.__gp_hash_builder = gp_hash_desc_to_html_builder()
self.__basic_tree_builder = basic_tree_desc_to_html_builder()
self.__basic_trie_builder = basic_trie_desc_to_html_builder()
self.__lu_builder = lu_desc_to_html_builder()
self.__std_builder = std_desc_to_html_builder()
self.__std_tr1_builder = std_tr1_desc_to_html_builder()
self.__gnucxx_builder = gnucxx_desc_to_html_builder()
self.__stdext_builder = stdext_desc_to_html_builder()
self.__npq_builder = npq_desc_to_html_builder()
self.__thin_heap_builder = thin_heap_desc_to_html_builder()
self.__thin_heap_builder = thin_heap_desc_to_html_builder()
self.__binary_heap_builder = binary_heap_desc_to_html_builder()
self.__binomial_heap_builder = binomial_heap_desc_to_html_builder()
self.__rc_binomial_heap_builder = rc_binomial_heap_desc_to_html_builder()
self.__pairing_heap_builder = pairing_heap_desc_to_html_builder()
def __build_specific(self, s_desc):
type = s_desc.attributes['value'].value
if type == 'thin_heap':
return self.__thin_heap_builder.build(s_desc)
if type == 'binary_heap':
return self.__binary_heap_builder.build(s_desc)
if type == 'binomial_heap':
return self.__binomial_heap_builder.build(s_desc)
if type == 'rc_binomial_heap':
return self.__rc_binomial_heap_builder.build(s_desc)
if type == 'pairing_heap':
return self.__pairing_heap_builder.build(s_desc)
if type == 'cc_hash_table':
ret = self.__cc_hash_builder.build(s_desc)
elif type == 'gp_hash_table':
ret = self.__gp_hash_builder.build(s_desc)
elif type == 'tree':
ret = self.__basic_tree_builder.build(s_desc)
elif type == 'trie':
ret = self.__basic_trie_builder.build(s_desc)
elif type == 'list_update':
ret = self.__lu_builder.build(s_desc)
elif type == 'std::priority_queue_vector':
return self.__npq_builder.build(True)
elif type == 'std::priority_queue_deque':
return self.__npq_builder.build(False)
elif type == 'std_set' or type == 'std_map' or type == 'std_multimap':
return self.__std_builder.build(s_desc)
elif type == 'std_tr1_unordered_set' or type == 'std_tr1_unordered_map':
return self.__std_tr1_builder.build(s_desc)
elif type == 'stdext_hash_set' or type == 'stdext_hash_map' or type == 'stdext_hash_multimap':
return self.__stdext_builder.build(s_desc)
elif type == '__gnucxx_hash_set' or type == '__gnucxx_hash_map' or type == '__gnucxx_hash_multimap':
return self.__gnucxx_builder.build(s_desc)
else:
sys.stderr.write('cannot recognize %s\n' % type)
raise exception
return ret
def build(self, desc):
s_descs = desc.getElementsByTagName('type')
if s_descs.length == 0:
print desc.toxml()
raise exception
ret = ''
count = 0
for s_desc in s_descs:
if count > 0:
ret = ret + ', mapping each key to '
ret = ret + self.__build_specific(s_desc)
count = count + 1
return ret
def main(doc_dir, res_dir, test_infos_f_name, test_name, build_name):
res_gtr = res_getter(test_infos_f_name)
res = res_gtr.get(res_dir, test_name)
png_mkr = png_maker()
png_of_name = doc_dir + '/' + test_name + '_' + build_name + '.png'
print png_of_name
png_mkr.make(res, png_of_name)
if __name__ == "__main__":
"""
This module takes 6 parameters from the command line:
Docs directory
Results directory
Tests info XML file name
Test name
Build name
Compiler name
"""
usg = "make_graph.py <doc_dir> <res_dir> <test_info_file> <test_name> <build_name>\n"
if len(sys.argv) != 6:
sys.stderr.write(usg)
raise exception
main(sys.argv[1], sys.argv[2], sys.argv[3], sys.argv[4], sys.argv[5])